Presentation by Melkamu Bezabih, Abera Adie, Misbah Abdella, Fikadu Tessema, Tigist German, Alan Duncan, Michael Blümmel and Chris Jones at the ILSSI Knowledge Sharing Workshop, 25 May 2023, ILRI, Addis Ababa, Ethiopia
Potentials for and benefits from irrigated fodder: highlights from the ILSSI research
1. Photo Credit Goes Here
Potentials for and benefits from irrigated fodder: highlights
from the ILSSI research
M. Bezabih, A. Adie, M. Abdella, F. Tessema, T. German, A. Duncan, M. Blummel, C. Jones
ILSSI knowledge sharing workshop, 25 May 2023, ILRI, Addis Ababa, Ethiopia
Photo: Apollo Habtamu
3. OBJECTIVE
Explore irrigated fodder cultivation as entry point to
diversification, intensification and sustainability
Improve on-farm milk and meat production through
filling feed quality gaps in dry season
Evaluate forage production as cash crop, livelihood, and
employment strategy
Capacitate value chain actors
4. APPROACHES: R4D
Community engagements
Prioritize areas for action research
Participatory on-farm trials and demos
• Forage varieties
• Water lifting technologies
• Utilization practices (dairy; fattening)
Socio-economic assessments
5. Irrigated fodder agronomic trials
85 85
120
0
50
100
150
0
10
20
30
Once twice thrice
Growing
period
(days)
Biomass
yield
(ton/ha)
Harvesting frequency
Yield (ton/ha)
Growing days
Annual grass-legume mixes
Oats-vetch
Napier-pigeon pea
Perennial forages under
irrigation proving green feed
year- round, with soil
fertility and fodder quality
benefits
Multi-cut
approaches
for oat-vetch
under
irrigation,
doubling yield
Perennial grass-legume mixes
Napier-Desmodium
EVIDENCE FROM ON-FARM TRIALS
6. Water lifting technologies
and irrigation practices
Misba et al 2023
0
5
10
15
20
25
30
35
40
45
Climated based-
pulley
Farmer
irrigation-pulley
Climated based-
Solar
Farmer
irrigation-Solar
Dry
matter
yield
of
Napier
(t/ha)
EVIDENCE FROM ON-FARM TRIALS
7. 0
2
4
6
Milk
yield
(Lts/day)
Local cows
Crossbred cows
Productivity gains
13 16
122
84
31
0
20
40
60
80
100
120
140
%
increase
in
intake
vs
baseline
Nutritional gains
0
5
10
15
20
25
30
Net
profit
(000,
ETB)
Income gains
Improved fodder as a substitute to commercial conc.
Type of supplement
Sheep
Weight gain
(g/day)
Net
income/head
100% concentration mix 130 329
67% Conc.+33% Oat-vetch mix 110 418
33% Conc.+67% Oat-vetch mix 109 379
100% Oat-vetch mix 86 328
EVIDENCE FROM ON-FARM TRIALS
8. • On-farm use vs as cash
crop
– Profits maximized with
improved cows for
dairying
– Fodder markets offer
opportunities to
increase income
CONTEXT ON THE USE OF IRRIGATED FODDER
9. Bio-physical data used
• Soil properties,
• Rainfall,
• Potential evapo-
transpiration,
• Road networks,
• Livestock densities,
• Land use,
• Ground water depth,
• Potential borehole yield,
• Fodder characteristics
Factors reclassified, weighted and
overlayed
SUITABLE LAND FOR IRRIGATED FODDER PRODUCTION
10. Nearly 20% of the land is suitable for irrigated fodder production (80% threshold)
River basin Basin area (km2)
Potential
suitable area
(km2)
Abbay 198,891 60,700
Awash 110,439 29,300
Baro-Akobo 76,203 35,500
Genale-Dawa 172,133 77,400
Ogaden 80,009 21,800
Omo-Ghibe 78,189 26,000
Rift Valley 51,989 26,100
Tekeze 86,455 19,800
Wabi-Shebelle 202,219
49,800
SUITABLE LAND FOR IRRIGATED FODDER PRODUCTION
11. - Evidences clearly indicate that irrigated fodder can
considerably contribute to diversification and
intensification
- Awareness and interest created among farmers in
project sites further demonstrates its potential
- The practice can support climate change adaptation
and mitigation efforts
CONCLUSION
12. • Build on national strategic plans to move forward
scaling the good practices
• Enabling environments and incentives for private
sector investment in commercial production and
marketing
• Explore options to use irrigated fodder to build
national fodder banks in strategic areas:
Enhance drought preparedness and mitigation
WHERE TO GO FROM HERE